Research Article
Study of the Effect of Field Current (Iq Current Axis) on Torque Three Phase Induction Motor Using Field Oriented Control
@INPROCEEDINGS{10.4108/eai.23-11-2022.2341580, author={Linda Sartika and Abdul Muis Prasetia and Neli Puspa}, title={Study of the Effect of Field Current (Iq Current Axis) on Torque Three Phase Induction Motor Using Field Oriented Control}, proceedings={Proceedings of the International Conference on Sustainable Engineering, Infrastructure and Development, ICO-SEID 2022, 23-24 November 2022, Jakarta, Indonesia}, publisher={EAI}, proceedings_a={ICO-SEID}, year={2023}, month={12}, keywords={induction motors non-linear field oriented control decoupled torque}, doi={10.4108/eai.23-11-2022.2341580} }- Linda Sartika
Abdul Muis Prasetia
Neli Puspa
Year: 2023
Study of the Effect of Field Current (Iq Current Axis) on Torque Three Phase Induction Motor Using Field Oriented Control
ICO-SEID
EAI
DOI: 10.4108/eai.23-11-2022.2341580
Abstract
3-phase induction motors as electric drives are very popular due to their lower prices, sturdy construction and maintenance-free. Induction motors also have non-linear characteristics so that they are difficult to regulate. In this study the vector method is used as a field setting on an induction motor, this method can make the coupled system a decoupled system. The test results show that the value of the field current (iqs) given to the Field Oriented Control (FOC) system affects the torque and rotation of the rotor. the greater the value of the field current (iqs), the smaller the torque value so that the rotor speed on the motor increases. Under the condition that the motor is loaded with 5 N and iqs 1 A, the electromagnetic torque value is 14.05 Nm, while at the 5 N and iqs 5 A load conditions, the electromagnetic torque value is 13.63 Nm
